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| Risk Assessment | Women and Drugs | ||||||
Risk assessment
A risk is the potential of suffering some form of harm or loss.
Risk assessment is the mental process of measuring the risks involved in engaging in a given activity. People perform risk assessments most often when they are trying to decide whether or not to engage in an activity they perceive to be "risky." Using a drug, for example (any drug), has risks. Questions someone might ask themselves or their doctor before taking a particular drug, in order to assess the risks, include:
There are many other questions someone might ask. These are just a few examples.
Risk assessment is always a risk/benefit assessment.
To measure anything, a scale or counterweight is needed. The counterweight to a risk is a benefit. A person undertaking a risk assessment weighs the perceived risks against the perceived benefits (real or imagined), and the "heavier" side wins. Risk assessment, therefore, is always a risk/benefit assessment.
People perform risk/benefit assessments every day, even unconsciously. For example, every time someone gets into a car or an airplane they are making an unconscious decision that the benefits of rapid transportation outweigh the risk of injury or death.
Can recreational drug use have benefits?
A benefit is something that promotes or enhances well-being. Recreation itself is a benefit, and different people choose different types of recreational activities, depending on their tastes and preferences. The vast majority of people who use illicit drugs (and alcohol) are casual, non-addicted users who use moderately and report various kinds of benefits from their use, whether therapeutic, medicinal, recreational, or otherwise. Different people use different drugs and report different benefits. Although we do not provide much information about the potential benefits of various illicit drugs, it is important to understand these as well as the potential risks in order to make an informed risk/benefit assessment.
What determines the weight of a risk.
The weight of a risk can be described as the severity of the possible harm that might occur from a given activity multiplied by the probability of the harm occurring. This can be expressed by the following equation:
(weight of risk) = (severity of harm) x (probability of occurrence)
Generally speaking, higher risk activities have higher probabilities of more severe harm, while lower risk activities have lower probabilities of less severe harm. For example, russian roulette would be considered a very high risk activity (perhaps a 1 in 5 chance of death) while reading a book would be considered a very low risk activity (perhaps a 1 in a million chance of a paper cut). Of course, a harm that one person considers extremely severe another person might not care about very much at all. Like benefits, "harms" are also largely subjective, and their severity can be assessed differently by different people.
Death is generally considered the most severe potential harm that can result from using drugs. Below is a chart comparing the statistical probability of death occurring from using various drugs, engaging in various recreational activities, and being exposed to various types of accidents and illnesses.
|
Risk of
Death from Various Recreational Drugs
Compared to Other Activities/Exposures |
||||||
|
Level
of Risk
|
Type
of Activity/Exposure
|
|||||
|
Approximate.
numerical |
Categorical
|
Drug
Use
|
Leisure
Activity
|
Disease
/ Illness
|
Accident
/ Injury
|
Other
Exposures |
|
1 in 1
|
Maximum
|
-
|
-
|
-
|
-
|
|
|
1 in 10
|
Extremely
High
|
-
|
Russian
Roulette*
|
-
|
-
|
Brain
Surgery
|
|
1 in 100
|
Very
High |
Tobacco
Methadone Injecting |
BASE Jumping
Serious Climbing Grand Prix Racing |
Heart
Disease
Cancer Respiratory Disease |
Space
Travel
|
Deep Sea
Fishing |
|
1 in 1,000
|
Quite
High |
Heroin
Morphine Barbiturates Alcohol |
Hang Gliding
Parachuting Motorbike Racing Climbing |
Hypothermia,
etc.
Mental Disorders Strokes Prostate Cancer |
Violence
(all)
Sudden Infant Death Hospitals (babies) Shaking (babies) |
Pollution
White Asbestos Offshore Oil Work Mining |
|
1 in 10,000
|
Medium
|
Solvents
Benzodiazepines Dextropropoxy Dihydrocodeine |
Motor
Sports**
Water Sports*** Mountain Hiking Canoeing |
Diabetes
Leukemia Influenza Skin Cancer |
Suicide;
Falls
Road Travel/Use Helicopter travel GA**** by dentist |
Construction
Work
Farming/Agriculture Police Custody Giving Birth (overall) |
|
1 in
100,000 |
Quite
Low |
Ecstasy/MDMA
Amphetamine Cocaine; GHB Prescription Drugs Analgesics Contraceptive Pill |
Dance
Parties
Fighting Sports Snow Sports Soccer & Rugby DIY (home) Sports Spectator |
Meningitis
HIV/AIDS Asthma Sudden Death Syndrome Food Poisoning Cervical Cancer |
Airplane
Travel
Rail Travel, etc. Stairs (falling) Eating (Choking) Electrocution Drowning; Fires |
Child
Abuse
Refusal of Int. Care Manufacturing (cars) Passive Smoking X-rays; Machinery Homicide; Guns |
|
1 in
1 million |
Very Low
|
LSD (acid)
Mushrooms Antibiotics Viagra |
Fairground
Rides
Jogging Swimming Riding Sports |
Legionnaire's
Food Allergies |
Falling
out of bed
Clothing Fires Boilers/Heaters Police Cars; Toys |
Clerical/Office
work
Vaccination |
|
1 in 10
million
|
Extremely
Low
|
Herbal
Cannabis
Cannabis Resin Amyl Nitrates |
Indoor
Sports
Playgrounds Gymnasiums |
CJD (BSE)
Toxic Shock Synd. |
Insects;
Dogs
Alarm Clocks Lightening |
Nuclear
Radiation
Sexual Intercourse |
|
1 in 100
million
|
Minimal
|
Caffeine;
Khat
Nitrous Oxide Ketamine, DMT |
Table
Games
Computer Games Masturbation |
Bubonic
Plague
Smallpox Leprosy |
Snakes;
Birds
Cats; Sharks Earthquakes |
State
Executions
Spontaneous Combustion UFOs / Aliens |
|
Copyright © Russell Newcombe, 1999 |
||||||
Explanation of the above chart.
The above chart is based on the number of people who engaged in the particular activity or were exposed to the cause during a single year (1998) in the United Kingdom. Denominators are based on the most recent prevalence figures (or estimates) for each type of drug use or leisure activity. Activities which involve the entire British population are based on a denominator of 55 million. The above chart does not take into account the frequency of occasions/exposures nor the magnitude or duration of the cause (i.e., dose of the drug, total flying hours, etc).
Disease/illness ratios are based on the number of people whose behavior exposes them to the disease (i.e., beef-eaters for CJD, sexually active persons for AIDS). Accident/Injury ratios are based on the number of people whose behaviors or qualities expose them to risk of that type of accident or injury (i.e., astronauts for space travel). Other exposure ratios are based on the number of people exposed to this kind of risk.
* Included as a theoretical and quasi-humorous example. The prevalence of Russian roulette playing is not known.
** There is an estimated 200,000 mountain climbers in the UK, and 116 deaths in a decade.
*** Water sports involving equipment like boating, surfing, water skiing, scuba-diving and canoeing (1 in 13,200)
**** "General Anesthesia." There were 3 deaths among 35,000 people who received GA for dental work in Britain.
The above chart portrays statistical probabilities only. Statistical probabilities do not reflect the actual chances of the potential harm occurring to every individual who undertakes the activity. This is because some individuals take more precautions than others when engaging in risky activities. Also, some people may be more prone to accident or injury than others, some people may be less healthy to begin with, etc. Nevertheless, statistical analyses like the above chart can assist consumers in performing risk assessments as well as provide useful information to policy-makers in determining medical, drug, and recreational policies.
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